CN114766801B - Hair braiding machine with guide rail conveying function - Google Patents

Abstract

The utility model provides a braiding machine that guide rail was transmitted, motor (71) passes through gear drive left runner (6) clockwise and right runner (7) counter-clockwise synchronous rotation, U type spare (8) are in left U type groove (65) and right U type inslot (78) synchronous directional rotation, slide block on U type spare (8) is in corresponding guide rail location rectilinear motion, pass U type spare (8) from left runner (6) upper left portion rectilinear motion to right runner (7) lower right portion and pass U type spare (8) from right runner (7) upper right rectilinear motion to left runner (7) lower left portion, three U type spare (8) are in the circulation operation of corresponding position turn, realize that three bundles of hair weave into braids, simple structure is stable; the annular hair clip (9) is opened, the middle part of the hair (1) is closed after being filled, the sliding cover (10) is opened, the annular hair clip (9) is filled into the U-shaped piece (8), the rotary cover (81) is covered, the sliding cover (10) is closed, the hair (1) is filled into the corresponding position, and the operation is convenient and practical.

Description

Hair braiding machine with guide rail conveying function

Technical Field

The invention relates to hair braiding in the hair dressing industry, in particular to a hair braiding machine for automatically braiding three bundles of hair into braids.

Background

There have been used a braiding machine for automatically braiding three bundles of hair into a braid, and related patent documents are: a hair braiding machine of CN113692236a (Wang Zhixiang); CN 101374436a (illion cosmetic products limited); CN 1317941a (Li Mianyu) auxiliary devices for hair braider, etc.

However, the machine for braiding hair of the above-mentioned invention CN113692236a (Wang Zhixiang) uses 4 motor drives, interworks and has a complex structure; CN 101374436a (illite cosmetic products limited) hair braider, in which the hair is passed through a special sleeve, the operation is inconvenient, and when the hair sleeve is transferred from one rotor to another, the operation is complicated by using the actuator structure to turn the transfer; the auxiliary device for the hair braider of CN 1317941A (Li Mianyu) is inconvenient to actually operate by clamping the tail of the hair only through the nozzle.

Although these existing machines can handle braided hair, they have respective drawbacks and problems, and therefore, research and improvement on machines for automatically braiding hair into a braid are required, and a simple and convenient-to-operate hair braider has been developed.

Disclosure of Invention

And (one) solving the technical problem.

Aiming at the defects of the prior art, the invention provides a guide rail-conveyed hair braider, a U-shaped piece rotates synchronously along with the orientation of a left rotating wheel and a right rotating wheel, the U-shaped piece rotates synchronously in the orientation of the left U-shaped groove and the right U-shaped groove, a sliding block on the U-shaped piece moves linearly in a positioning mode in a corresponding guide rail, the U-shaped piece is conveyed to the right lower part of the right rotating wheel from the left upper part of the left rotating wheel and conveyed to the left lower part of the left rotating wheel from the right upper part of the right rotating wheel in a linear mode, three U-shaped pieces circularly move in corresponding positions, three bundles of hair are braided into braids, and the situation of simple structure is solved. The annular hair clip is opened, the middle part of the hair is closed after being filled, the sliding cover is opened, the annular hair clip is filled into the U-shaped piece, the rotary cover is covered, the sliding cover is closed, and the hair is filled into the corresponding position, so that the problem of convenient operation is solved.

And (II) technical scheme.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a braiding machine of guide rail conveying which characterized in that: the motor drives the left rotating wheel to rotate synchronously in the clockwise direction and the right rotating wheel to rotate synchronously in the anticlockwise direction through gears; the U-shaped piece synchronously rotates along with the right rotating wheel in a directional manner, and drives the driving surface to synchronously run in the right U-shaped groove; when the tangent point of the circle and the linear guide rail is reached, the second slide block on the U-shaped piece runs in a straight line in the orientation of the upper right guide rail of the front shell, and the third slide block on the U-shaped piece runs in a straight line in the orientation of the upper right guide rail of the rear shell; under the action of centripetal force of the right rotating wheel and the guide rail, the U-shaped piece linearly slides along the guide rail tangent to the right rotating wheel; when the first sliding block on the U-shaped piece continuously rotates and reaches the intersection of the opposite linear guide rails, the first sliding block on the U-shaped piece linearly moves in a positioning and conveying mode in the left upper guide rail of the front cover, and the fourth sliding block on the U-shaped piece linearly moves in a positioning and conveying mode in the left upper guide rail of the rear cover; a sixth sliding block on the U-shaped piece runs in a straight line in a front shell left lower guide rail in a head-on positioning way, and a seventh sliding block on the U-shaped piece runs in a straight line in a rear shell left lower guide rail in a head-on positioning way; continuing to rotate to finish the linear transmission of the U-shaped piece from the right upper part of the right rotating wheel to the left lower part of the left rotating wheel; the U-shaped piece continuously rotates and synchronously rotates along with the left rotating wheel, and the driving surface in the left U-shaped groove driving rotating cover synchronously operates; when the tangent point of the circle and the linear guide rail is reached, a sixth sliding block on the U-shaped piece runs in a straight line in an orientation mode on the left upper guide rail of the front shell, and a seventh sliding block on the U-shaped piece runs in a straight line in an orientation mode on the left upper guide rail of the rear shell; under the action of centripetal force of the left rotating wheel and the guide rail, the U-shaped piece linearly slides along the guide rail tangent with the left rotating wheel;

when the rotating is continued and the opposite linear guide rail is intersected, a fifth sliding block on the left U-shaped piece is positioned and conveyed in the right upper guide rail of the front cover to linearly run, and an eighth sliding block on the U-shaped piece is positioned and conveyed in the right upper guide rail of the rear cover to linearly run; the second sliding block on the U-shaped piece runs in a straight line in a front shell right lower guide rail in a head-on positioning way, and the third sliding block on the U-shaped piece runs in a straight line in a rear shell right lower guide rail in a head-on positioning way; continuing to rotate to finish the linear transmission of the U-shaped piece from the left upper part of the left rotating wheel to the right lower part of the right rotating wheel;

continuing to rotate, and synchronously and directionally rotating the U-shaped piece along with the right rotating wheel so as to circulate; the three U-shaped pieces are positioned at corresponding complementary positions, and are rotated synchronously along with the orientation of the three left U-shaped grooves of the left rotating wheel and the orientation of the three right U-shaped grooves of the right rotating wheel, the middle of the U-shaped pieces is transmitted to the opposite rotating wheel through the guide rail, and the U-shaped pieces run from left to right in turn to drive the annular hair clips in the U-shaped pieces and the hair in the annular hair clips to run in turn, so that three bundles of hair are woven into braids.

Preferably, a driving gear on the motor drives the second transmission gear to rotate in a decelerating way through the first reduction gear, the second reduction gear and the third reduction gear, and the second transmission gear drives the first transmission gear, the reversing gear, the third transmission gear, the left rotating wheel and the right rotating wheel to synchronously rotate.

Preferably, the front and rear positioning horizontal planes on the U-shaped piece are horizontally positioned and slide with the rear left horizontal plane, the front left horizontal plane, the rear right horizontal plane, the front shell horizontal plane and the rear shell horizontal plane.

Preferably, when the U-shaped piece synchronously rotates along with the left rotating wheel, the left orientation convex block is matched and oriented in the orientation groove of the rotating cover; when the U-shaped piece synchronously rotates along with the right rotating wheel, the right orientation convex block is matched and oriented in the orientation groove.

Preferably, the opening side of the U-shaped piece is provided with a rotary cover, the rotary cover is opened by rotating around the rotary column, the annular hairpin is conveniently arranged, and when the annular hairpin is rotated to a corresponding angle, the spherical protruding point is fixed in the hole.

Preferably, the locking piece on the sliding cover is pushed, the sliding cover is pulled open, the front cover T-shaped groove and the sliding cover T-shaped groove slide in the track, the sliding cover is pushed to be closed, and the sliding cover positioning block is accurately positioned in the positioning groove.

Preferably, the annular rubber band is fixed in the upper clamping groove of the upper half-ring hairpin, and after passing through the rotating shaft, the other side of the annular rubber band is fixed in the lower clamping groove of the lower half-ring hairpin.

(III) beneficial effects.

The invention provides a guide rail conveying hair braider, which has the following beneficial effects.

(1) The motor drives the left rotating wheel to synchronously rotate clockwise and the right rotating wheel to synchronously rotate anticlockwise through the gears, the U-shaped piece synchronously rotates in the left U-shaped groove and the right U-shaped groove in a directional manner, the sliding block on the U-shaped piece linearly moves in the corresponding guide rail in a positioning manner, the U-shaped piece is linearly conveyed from the left upper part of the left rotating wheel to the right lower part of the right rotating wheel and the U-shaped piece is linearly conveyed from the right upper part of the right rotating wheel to the left lower part of the left rotating wheel, and the three U-shaped pieces circularly move at the corresponding positions to realize braiding of three bundles of hair, so that the structure is simple and stable; solves the problem of complex structure.

(2) Opening the annular hair clip, closing the hair after the middle part of the hair is installed, opening the sliding cover, installing the annular hair clip into the U-shaped piece, covering the rotating cover, closing the sliding cover, and installing the hair into the corresponding position, so that the operation is convenient and practical; solves the problem of inconvenient operation.

Drawings

FIG. 1 is a schematic view of the overall structure of the working state of the present invention;

FIGS. 2-3 are schematic views of the overall structure of the present invention;

FIGS. 4-6 are schematic views of the internal structure of the present invention;

FIG. 7 is a partial schematic view of an open slide cover structure of the present invention;

FIG. 8 is a schematic view of the front cover structure of the present invention;

FIG. 9 is a schematic view of the front shell structure of the present invention;

FIG. 10 is a schematic view of the rear housing structure of the present invention;

FIG. 11 is a schematic view of the rear cover structure of the present invention;

FIG. 12 is a schematic view of the right wheel construction of the present invention;

FIG. 13 is a schematic view of the left wheel construction of the present invention;

FIG. 14 is a schematic view of the U-shaped member structure of the present invention;

FIG. 15 is a schematic view of the rotary cap structure of the present invention;

FIG. 16 is a schematic view of a loop hairpin opening structure of the invention;

FIG. 17 is a schematic representation of a circular hairpin structure of the invention;

FIG. 18 is a schematic view of the structure of the rubber band of the present invention;

FIG. 19 is a partial schematic view of the internal structure of the sliding cover of the present invention;

FIG. 20 is a schematic view of the sliding front cover structure of the present invention;

fig. 21 is a schematic view of the sliding rear cover structure of the present invention.

In the accompanying drawings: 1. hair; 2. a front cover; 3. a front shell; 4. a rear case; 5. a rear cover; 6. a left wheel; 7. a right wheel; 8. a U-shaped piece; 9. a circular hair clip; 10. a sliding cover; 11. sliding the front cover; 12. sliding the rear cover; 13. a locking member; 14. a charging port; 16. a sliding cover positioning block; 17. a front cover T-shaped groove; 18. a sliding cover T-shaped groove; 19. a positioning groove; 21. the left upper guide rail of the front cover; 22. a front cover right upper guide rail; 23. a power switch; 24. a speed regulating knob; 25. starting a key; 31. a front left upper guide rail; 32. a front right upper guide rail; 33. a front left lower guide rail; 34. a front shell right lower guide rail; 35. front shell level; 41. a rear left upper guide rail; 42. a rear housing right upper rail; 43. a rear housing left lower guide rail; 44. a rear housing right lower rail; 45. a rear shell horizontal plane; 51. the left upper guide rail of the rear cover; 52. a rear cover right upper guide rail; 53. a battery; 54. a PCB circuit board; 60. rear left horizontal plane, 61, first transmission gear; 62. a reversing gear; 63. a second transmission gear; 64. a left directional bump; 65. left U-shaped groove, 66, front left horizontal plane; 67. a safety switch; 70. a rear right horizontal plane; 71. a motor; 72. a drive gear; 73. a first reduction gear; 74. a second reduction gear; 75. a third reduction gear; 76. a third transmission gear; 77. a right directional bump; 78. right U-shaped groove, 79, front side right horizontal plane; 81. a rotary cover; 82. a driving surface; 83. a directional groove; 84. positioning a horizontal plane; 801. a first slider; 802. a second slider; 803. a third slider; 804. a fourth slider; 805. a fifth slider; 806. a sixth slider; 807. a seventh slider; 808. an eighth slider; 811. a spin cover orientation slot 812, spin columns; 813. spherical protruding points; 814. a rotary cap drive surface; 91. a rotation shaft; 92. an upper half-ring hairpin; 93. a lower half-ring hairpin; 94. an elastic band; 95. an upper clamping groove; 96. a lower clamping groove; 97. and a diversion trench.

Detailed Description

The following drawings in the examples of the invention are provided to illustrate the embodiments of the invention in a clear and complete manner, and it is apparent that the embodiments described are only some embodiments of the invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1-21, the present invention provides a technical solution: a guide rail conveying braiding machine is characterized in that a charging port 14 is formed in the right side of a front cover 2, and a PCB (printed Circuit Board) 54 is connected with the charging port 14 to charge a battery 55. The power switch 23 is turned on, the motor 71 is regulated to be slow by rotating the speed regulating knob 24, the sliding cover 10 is pushed and closed, the safety switch 67 is turned on, the key 25 is started, and the motor 71 is started; the driving gear 72 on the motor 71 drives the second transmission gear 63 to rotate in a decelerating way through the first reduction gear 73, the second reduction gear 74 and the third reduction gear 75, and the second transmission gear 63 drives the first transmission gear 61, the reversing gear 62, the third transmission gear 76, the left rotating wheel 6 and the right rotating wheel 7 to synchronously rotate; the three U-shaped elements 8 are in corresponding positions and follow the three left U-shaped grooves 65 of the left runner 6 and the three right U-shaped grooves 78 of the right runner 7 in a directed synchronous rotation.

When the U-shaped piece 8 is at the upper right corner of the right rotating wheel 7 and is aligned with the sliding cover 10, the starting key 25 is released, and the motor 71 stops rotating; pushing the locking piece 13 to open the sliding cover 10, and positioning and sliding the front cover T-shaped groove 17 and the sliding cover T-shaped groove 18 in the track; the opening side of the U-shaped piece 8 is provided with a rotary cover 81, the rotary cover 81 rotates around a rotary column 812 to be opened, and when the rotary cover rotates to a corresponding angle, the spherical convex points 813 are fixed in the corresponding holes to be positioned; taking out the annular hairpin 9; closing the rotary cover 81, pushing the sliding cover 10, and accurately positioning the sliding cover positioning block 16 in the positioning groove; similarly, the other two annular hairpins 9 are removed.

The upper half-ring hairpin 92 and the lower half-ring hairpin 93 are opened by rotating around the rotating shaft 9, the annular rubber band 94 is fixed in the upper clamping groove 95 of the upper half-ring hairpin 92, and after passing through the rotating shaft 91, the other side is fixed in the lower clamping groove of the lower half-ring hairpin 93; the hair 1 which is gathered is put into the annular hair clip 9, and then the upper half-ring hair clip 92 and the lower half-ring hair clip 93 are closed by rotating around the rotating shaft 9; simultaneously, three annular hair clips 9 are clamped into the hair 1.

The sliding cover 10 is pulled open, and the rotary cover 81 is rotated open; three annular hair clips 9 are respectively arranged in the U-shaped piece 8, and the annular hair 9 can freely rotate in the clamping groove of the U-shaped piece 8; the rotary cover 81 is closed and the slide cover 10 is pushed in.

The speed regulation knob 24 is rotated to regulate the speed, the motor 71 is started, and the U-shaped piece 8 rotates along with the right rotating wheel 7; the front and rear positioning horizontal plane 84 on the U-shaped member 8 horizontally slides with the rear left horizontal plane 60, the front left horizontal plane 66, the rear right horizontal plane 70, the front right horizontal plane 79, the front shell horizontal plane 35 and the rear shell horizontal plane 45; when the U-shaped piece 8 synchronously rotates along with the right rotating wheel 7, the right directional protruding block 77 correspondingly rotates in a directional groove 83 in a directional way, and the driving surface 82 is driven to synchronously operate in the right U-shaped groove 78.

Continuing to rotate, when the tangent point of the circle and the linear guide rail is reached, the second sliding block 802 on the U-shaped piece 8 runs in an oriented straight line on the right upper guide rail 32 of the front shell, and the third sliding block 803 on the U-shaped piece 8 runs in an oriented straight line on the right upper guide rail 42 of the rear shell; under the action of centripetal force of the right rotating wheel 7 and the guide rail, the U-shaped piece 8 slides along the guide rail tangent to the right rotating wheel 7 in a straight line; continuing to rotate, when the first sliding block 801 on the U-shaped piece 8 moves in a positioning and conveying straight line in the front cover left upper guide rail 21 and the fourth sliding block 804 on the U-shaped piece 8 moves in a positioning and conveying straight line in the rear cover left upper guide rail 51; a sixth slider 806 on the U-shaped member 8 runs in a straight line in front-shell left lower rail 33 in a straight line in front-shell left lower rail 43 in a seventh slider 807 on the U-shaped member 8; continuing to rotate, the U-shaped piece 8 is linearly conveyed from the right upper part of the right rotating wheel 7 to the left lower part of the left rotating wheel 6.

Continuing to rotate, when the U-shaped piece 8 synchronously rotates along with the left rotating wheel 6, the left directional lug 64 rotates in a matching orientation in the directional groove 811 of the rotating cover, and the driving surface 814 in the rotating cover is driven by the left U-shaped groove 65 to synchronously operate; the method comprises the steps of carrying out a first treatment on the surface of the Continuing to rotate, when the tangent point of the circle and the linear guide rail is reached, the sixth sliding block 806 on the U-shaped piece 8 runs in an oriented linear manner on the left upper guide rail 31 of the front shell, and meanwhile, the seventh sliding block 807 on the U-shaped piece 8 runs in an oriented linear manner on the left upper guide rail 41 of the rear shell; under the action of centripetal force of the left rotating wheel 6 and the guide rail, the U-shaped piece 8 slides along the guide rail tangent to the left rotating wheel 6 in a straight line; continuing to rotate, when the intersection of the opposite linear guide rails is reached, a fifth sliding block 805 on the left U-shaped piece 8 moves in a positioning and conveying linear manner in the front cover right upper guide rail 22, and an eighth sliding block 808 on the U-shaped piece 8 moves in a positioning and conveying linear manner in the rear cover right upper guide rail 52; the second slider 802 on the U-shaped piece 8 runs in a straight line in front case right lower guide rail 34 in a head-on positioning manner, and the third slider 803 on the U-shaped piece 8 runs in a straight line in rear case right lower guide rail 44 in a head-on positioning manner; continuing to rotate, the U-shaped piece 8 is linearly conveyed from the left upper part of the left rotating wheel 6 to the right lower part of the right rotating wheel 7.

Continuing to rotate, the U-shaped piece 8 synchronously rotates along with the right rotating wheel 7, so that the rotation is realized; the three U-shaped pieces 8 rotate synchronously along the directions in the three left U-shaped grooves 65 of the left rotating wheel 6 and the three right U-shaped grooves 78 of the right rotating wheel 7 in the corresponding complementary positions, the middle of the U-shaped pieces is transmitted to the opposite rotating wheel through the guide rail, and the U-shaped pieces run from left to right in turn to drive the annular hair clips 9 in the U-shaped pieces 8 and the hair 1 in the annular hair clips 9 to run in a circulating mode from right to left in turn, so that three bundles of hair are woven into braids.

The foregoing is merely a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and various modifications or applications according to the foregoing embodiments are within the scope of the present invention.

Claims (7)

1. The utility model provides a braiding machine of guide rail conveying which characterized in that: the motor (71) drives the left rotating wheel (6) to rotate synchronously with the right rotating wheel (7) in the anticlockwise direction through a gear; the U-shaped piece (8) synchronously rotates along with the right rotating wheel (7) in a directional manner, and a driving surface (82) is driven to synchronously operate in a right U-shaped groove (78);

when the tangent point of the circle and the linear guide rail is reached, the second sliding block (802) on the U-shaped piece (8) runs in an oriented straight line on the right upper guide rail (32) of the front shell, and the second sliding block (803) on the U-shaped piece (8) runs in an oriented straight line on the right upper guide rail (42) of the rear shell; under the action of centripetal force of the right rotating wheel (7) and the guide rail, the U-shaped piece (8) linearly slides along the guide rail tangent to the right rotating wheel (7);

when the rotation is continued and the intersection of the opposite linear guide rails is reached, a first sliding block (801) on the U-shaped piece (8) moves linearly in a positioning and conveying way in the left upper guide rail (21) of the front cover, and a fourth sliding block (804) on the U-shaped piece (8) moves linearly in a positioning and conveying way in the left upper guide rail (51) of the rear cover; a sixth slider (806) on the U-shaped piece (8) runs in a straight line in the front shell left lower guide rail (33) in a head-on positioning way, and a seventh slider 807 on the U-shaped piece (8) runs in a straight line in the rear shell left lower guide rail (43) in a head-on positioning way; continuing to rotate to finish the linear transmission of the U-shaped piece (8) from the upper right part of the right rotating wheel (7) to the lower left part of the left rotating wheel (6); continuing to rotate, the U-shaped piece (8) synchronously rotates along with the left rotating wheel (6), and the driving surface (814) in the rotating cover is driven to synchronously operate by the left U-shaped groove (65);

when the tangent point of the circle and the linear guide rail is reached, a sixth sliding block (806) on the U-shaped piece (8) runs in a straight line in an orientation mode on the left upper guide rail (31) of the front shell, and meanwhile, a seventh sliding block (807) on the U-shaped piece (8) runs in a straight line in an orientation mode on the left upper guide rail (41) of the rear shell; under the action of centripetal force of the left rotating wheel (6) and the guide rail, the U-shaped piece (8) linearly slides along the guide rail tangent to the left rotating wheel (6);

continuing to rotate, when the intersection of the opposite linear guide rails is reached, positioning and conveying linear operation is performed on a fifth sliding block (805) on the left U-shaped piece (8) in the front cover right upper guide rail (22), and positioning and conveying linear operation is performed on an eighth sliding block (808) on the U-shaped piece (8) in the rear cover right upper guide rail (52); a second sliding block (802) on the U-shaped piece (8) runs in a straight line in a front shell right lower guide rail (34) in a head-on positioning way, and a third sliding block (803) on the U-shaped piece (8) runs in a straight line in a rear shell right lower guide rail (44) in a head-on positioning way; continuing to rotate to finish the linear transmission of the U-shaped piece (8) from the left upper part of the left rotating wheel (6) to the right lower part of the right rotating wheel (7);

continuing to rotate, the U-shaped piece (8) synchronously rotates along with the right rotating wheel (7) in a directional manner, so that the U-shaped piece circulates; the three U-shaped pieces (8) rotate synchronously along with the orientation in the three left U-shaped grooves (65) of the left rotating wheel (6) and the three right U-shaped grooves (78) of the right rotating wheel (7) at corresponding complementary positions, the middle of the U-shaped pieces is transmitted to the opposite rotating wheel through the guide rail, and the U-shaped pieces run alternately from left to right to drive the annular hair clips (9) in the U-shaped pieces (8) and the hair (1) in the annular hair clips (9) to run alternately and circularly, so that three bundles of hair are woven into braids.

2. A rail-fed braiding machine as claimed in claim 1, wherein: a driving gear (72) on the motor (71) drives the second transmission gear (63) to rotate in a decelerating way through a first reduction gear (73), a second reduction gear (74) and a third reduction gear (75), and the second transmission gear (63) drives the first transmission gear (61), the reversing gear (62), the third transmission gear (76), the left rotating wheel (6) and the right rotating wheel (7) to synchronously rotate.

3. A rail-fed braiding machine as claimed in claim 1, wherein: the front and rear positioning horizontal planes (84) on the U-shaped piece (8) are horizontally positioned and slide with the rear left horizontal plane (60), the front left horizontal plane (66), the rear right horizontal plane (70), the front right horizontal plane (79), the front shell horizontal plane (35) and the rear shell horizontal plane (45).

4. A rail-fed braiding machine as claimed in claim 1, wherein: when the U-shaped piece (8) synchronously rotates along with the left rotating wheel (6), the left orientation lug (64) is in matching orientation in the orientation groove (811) of the rotating cover; when the U-shaped piece (8) synchronously rotates along with the right rotating wheel (7), the right orientation convex block (77) is in matching orientation in the orientation groove (83).

5. A rail-fed braiding machine as claimed in claim 1, wherein: the U-shaped piece (8) is provided with a rotary cover (81) at the opening side, the rotary cover (81) rotates around the rotary column (812) to be opened, the annular hairpin (9) is conveniently installed, and when the annular hairpin is rotated to a corresponding angle, the spherical protruding points (813) are fixed in the holes.

6. A rail-fed braiding machine as claimed in claim 1, wherein: pushing the locking piece (13), pulling the sliding cover (10) open, positioning and sliding the front cover T-shaped groove (17) and the sliding cover T-shaped groove (18) in the track, pushing the sliding cover (10) to close, and accurately positioning the sliding cover positioning block (16) in the positioning groove.

7. A rail-fed braiding machine as claimed in claim 1, wherein: the annular rubber band (94) is fixed in an upper clamping groove (95) of the upper semi-ring hairpin (92), and after passing through the rotating shaft (91), the other side of the annular rubber band is fixed in a lower clamping groove of the lower semi-ring hairpin (93).